A derivation on a C*-algebra is inner if it is defined as the commutator with a fixed (bounded) element of that C*-algebra. In physical systems, however, the element which implements a derivation via a commutator is unbounded, which presents challenges in studying the derivation’s properties and its higher powers. In 2017, E. Christensen introduced and studied a weakly-defined derivation on B(H) which is defined as a commutator with a fixed unbounded self-adjoint operator. E. Christensen’s definition is very nice in the sense that we need only study differentiability of a complex-valued function rather than definedness of a commutator involving an unbounded operator.
In this talk, we review the relationship between a derivation and the one-parameter automorphism group for which it is the infinitesimal generator. We then consider the density of the domains of higher powers of the weakly-defined derivation on B(H) introduced by E. Christensen, and we prove that the analytic vectors for this derivation is SOT-dense. We also study and prove that derivations of this form have a surprising property called kernel stabilization. As a consequence of this property, we provide new sufficient conditions for when two operators which satisfy the Heisenberg Commutation Relation must both be unbounded.
ASUERAU C*-Seminar
Nov. 2, 2022
Virtual via Zoom
1:30-2:45pm MST/AZ
Our C*-Seminar will again be on Wednesdays from 1:30-2:45 pm (Arizona time, no daylight savings), meeting both in person (WXLR A307) and via zoom.
Also new: it's now the ASUERAU C*-Seminar (so, joint with our friends Lara and Mitch at Embry-Riddle Aeronautical University up the road in Prescott).
(Please email the organizer John Quigg quigg@asu.edu to be put on the email list if you would like to receive the link to the zoom seminar.)
Lara Ismert
ERAU